/* * Initialise the MCP39F511 energy monitor */ bool MCP39F511Interface::initialise() { mcp_comms = new MCP39F511Comms(this); /* Ensure we are notified when a transaction has completed */ connect(mcp_comms, SIGNAL(transactionComplete(Mcp39F511Transaction)), this, SLOT(transactionComplete(Mcp39F511Transaction))); if(!mcp_comms->initialise()) { return false; } outputTransactionId = 0; energyCounterTransactionId = 0; recordTransactionId = 0; calibrationTransactionId = 0; config1TransactionId = 0; config2TransactionId = 0; compPeriphTransactionId = 0; factoryResetId = 0; readAllRegistersId = 0; /* Setup PWM first so readAllRegisters() doesn't overwrite registers that have been configured whilst its in the queue to be sent to the chip. */ setupPWM(MCP_SOUNDER_FREQUENCY, MCP_SOUNDER_PWM_DUTY_CYLCE); readAllRegistersId = readAllRegisters(); initialisationInProgress = true; return true; }
int main(void) { unsigned constrained = 0, shutOffBuzzer = 0; //Set GPIO Pins if(!shutOffBuzzer) DDRB|=0b00100000; //PIN 13 output to buzzer DDRB|=0b00001000; sei(); setupADC(); setupPWM(); startPWM(); count=0; InitTimer0(); StartTimer0(); while(1) { if(state) pwm_val = remap(adc_val,100,900); else { //0-255 steps for tone strength constrained = remap(adc_val,619,890); //Output tone tone(constrained); } } }
int main(void) { setupTimer(); setupPWM(); DDRB = 0xFF; while(1) {} }
void systemSetup(GlobalState *data) { rs232Setup2(); // configure USART2 rs232Setup1(); // configure USART1 i2CSetup(); RFIDSetup(); #if FRONT_NOT_BACK initSPI1(); initLCD(); keypadSetup(); // configure keypad setupPWM(); #else LEDSetup(); #endif data->myRequestStatus = 0; data->displayPage = 0; data->keyFlag = FALSE; data->displayedKey = FALSE; data->keyPress = -1; data->cursorPos = 0; // Select Game Menu data->mode = -1; data->game = -1; // Find better way to do this data->mainMenuSpots[0] = 40; data->mainMenuSpots[1] = 80; data->mainMenuSpots[2] = 120; data->getInventory = FALSE; data->xbeeFlag = FALSE; data->goBack = FALSE; // Game Related Globals data->keyStatus = -1; memset(data->selectMove, 0, sizeof (int) * 4 * 3); data->selectMove[0][1] = 10; data->cardSelect[0] = 1; data->cardSelect[1] = 0; data->cardSelect[2] = 0; data->cardSelect[3] = 0; data->firstTime = TRUE; data->updateLEDFlag = TRUE; data->lastCards = 0; data->readCard = 0; data->dataBlockNum = 0; data->dataSlotNum = 0; memset(data->dataBlock, 0, sizeof (char) * CARDBLOCKSIZE); data->runGetUpdatedCards = FALSE; data->gotI2C = 0; data->sendI2C = 0; data->displayPage = 0; data->newDisplay = 0; data->newGame = 1; data->newKeyboard = 1; data->doneKeyboard = 0; OpenTimer0(TIMER_INT_OFF & T0_SOURCE_INT & T0_PS_1_32); return; }
static void led_init() { RCC_APB1ENR |= RCC_APB1ENR_TIM3EN; RCC_AHBENR |= RCC_AHBENR_GPIOBEN; gpio_mode_setup(LED_PORT, GPIO_MODE_OUTPUT, GPIO_PUPD_NONE, LED_R_PIN | LED_G_PIN | LED_B_PIN); gpio_set_output_options(LED_PORT, GPIO_OTYPE_PP, GPIO_OSPEED_25MHZ, LED_R_PIN | LED_G_PIN | LED_B_PIN); setupPWM(); }
void onBlinkTimer() { if (g_blinkCount > 0) { gpio_toggle(LED_PORT, LED_R_PIN); --g_blinkCount; } else { swTimer_unRegisterFromTimer(onBlinkTimer); g_isRedBlinking = false; setupPWM(); } }
void initApplication(void) { unsigned int address = currentVersion->baseAddress; setupPWM(); for (unsigned int i = 0; i < NO_OF_CHANNELS; i++) { digitalWrite(outputPins[i], 0); pinMode(outputPins[i], OUTPUT); channels[i] = new Channel(i, address+16+i*256); } unsigned int initZeit = memMapper.getUInt8(P_InitZeit + address); Timeout startupDelay; if (initZeit) { startupDelay.start(initZeit); while (!startupDelay.expired()) { waitForInterrupt(); } } /* no yet used unsigned int telegrUnbegr = memMapper.getUInt8(PD_TelegrUnbegr + address); unsigned int telegrUebZeit = memMapper.getUInt16(P_TelegrUebZeit + address); */ inBetrieb = memMapper.getUInt8(P_InBetrieb + address); inBetriebValue_0 = memMapper.getUInt8(P_InBetriebValue_0 + address); inBetriebZeit = memMapper.getUInt16(P_InBetriebZeit + address); if(inBetrieb != 255) { inBetriebTimeout.start(1); } unsigned int einerFuerAlle = memMapper.getUInt8(t_EinerFuerAlle + address); msTimeout.start(1); timeoutTest.start(1); }
int main() { openSerialPort(); setupPWM(); readSerialPort(); return 0; }